Dr Glenn McConell chats with Professor Ylva Hellsten from the University of Copenhagen in Denmark. She is an authority on the effect of exercise on blood flow and cardiovascular function. We talked about heart rate before exercise and blood flow and blood pressure during and after exercise. She pointed out that muscle blood flow can increase by 100-fold during exercise! We discussed the effect of physical activity and aging/inactivity and menopause on the cardiovascular system. Also the protective effects of exercise training and the importance of doing the physical activity that you enjoy. A very interesting chat. Twitter: @CVgroupNEXS.
0:00. Introduction and how Ylva got into exercise research5:15. Eccentric exercise induced muscle damage6:45. Increases in heart rate before exercise7:35. Increases in blood flow during exercise11:15. Even passive movement of limbs can increase blood flow13:15. How does exercise increase blood flow?16:40. How much does muscle blood flow increase during exercise?18:35. Achieving adequate blood pressure and blood flow during exercise23:22. Are muscle capillaries all open even at rest?29:18. What happens to blood flow after exercise?31:00. Redundancy in regulation of blood flow during exercise36:01. Closing off blood flow to some areas during exercise38:24. Reduced blood pressure after exercise42:12. Blood flow and blood pressure during resistance exercise44:00. Blood flow restriction during contractions46:28. Fainting with prolonged standing, especially in the heat49:45. Exercise training reduces blood pressure52:30. Aging/inactivity and the cardiovascular system53:35. Optimal exercise to improve the cardiovascular system1:02:15. Blood vessel function declines with age are partly inactivity1:05:30. Menopause, exercise training and blood vessel function1:13:27. Long term activity and blood vessel function1:16:02. Effects of different types of exercise training1:17:50. Large muscle mass exercise1:19:30. Interval training/Do the physical activity that you enjoy1:20:55. Different ways to measure blood flow1:22:59. Blood flow during exercise in disease groups1:27:02. Isolated blood vessel cells from exercised muscle1:31:42. Ylva’s research: does she usually find what she expects?1:35:12. Takeaway messages1:38:21. Outro (9 seconds)Inside Exercise brings to you the who's who of research in exercise metabolism, exercise physiology and exercise’s effects on health. With scientific rigor, these researchers discuss popular exercise topics while providing practical strategies for all.The interviewer, Emeritus Professor Glenn McConell, has an international research profile following 30 years of Exercise Metabolism research experience while at The University of Melbourne, Ball State University, Monash University, the University of Copenhagen and Victoria University.He has published over 120 peer reviewed journal articles and recently edited an Exercise Metabolism eBook written by world experts on 17 different topics (https://link.springer.com/book/10.1007/978-3-030-94305-9).Connect with Inside Exercise and Glenn McConell at:Twitter: @Inside_exercise and @GlennMcConell1Instagram: insideexerciseFacebook: Glenn McConellLinkedIn: Glenn McConell https://www.linkedin.com/in/glenn-mcconell-83475460ResearchGate: Glenn McConellEmail:
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